Curtain lights kit and curtain lights device
Abstract
A curtain lights kit including a curtain lights device including a set of two curtain lights assemblies each having a preformed bendable wireless fidelity/short range wireless light emitting diode light strip for displaying in a common window frame; roll of magnetic polarity-A tape; roll of magnetic polarity-B tape; pin light emitting diode female to female connector cables; pin light emitting diode female to female butterfly connector cables; mateable pin light emitting diode male connectors; first AC/DC power supply adapter; second AC/DC power supply adapter; quick reference codes; curtain lights kit/curtain lights device instruction manual; portable curtain lights storage case, a first curtain lights assembly including a first preformed curtain including a first wireless fidelity/short range wireless controller having a first wireless fidelity/short range wireless combination chip, and a second curtain lights assembly including a second preformed curtain including a second wireless fidelity/short range wireless combination chip.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A curtain lights kit, comprising:
a curtain lights device;
the curtain lights device including a set of two curtain lights assemblies, a first curtain lights assembly and a second curtain lights assembly for displaying in a common window frame;
a roll of magnetic polarity-A tape;
a roll of magnetic polarity-B tape;
one or more pin light emitting diode female to female connector cables;
one or more pin light emitting diode female to female butterfly connector cables;
one or more mateable pin light emitting diode male connectors;
a first AC/DC power supply adapter;
a second AC/DC power supply adapter;
a curtain lights kit/curtain lights device instruction manual;
a portable curtain lights storage case including at least two removable storage containers;
wherein the first curtain lights assembly, comprises:
a first preformed curtain formed from a first transparent non-conductive substrate including a first interior spatial area;
a first wireless fidelity/short range wireless controller embedded within the first interior spatial area of the first transparent non-conductive substrate of the first preformed curtain;
a first preformed bendable wireless fidelity/short range wireless light emitting diode light strip including a first plurality of wireless fidelity/short range wireless light emitting diodes, a first bendable printed circuit board including a first electrically conductive copper circuitry, a first plurality of copper pads, and a first plurality of resistors, wherein the first preformed bendable wireless fidelity/short range wireless light emitting diode embedded within the first interior spatial area of the first transparent non-conductive substrate of the first preformed curtain;
the first AC/DC power supply adapter;
a first quick reference code;
wherein the first wireless fidelity/short range wireless controller is embedded within the first interior spatial area of the transparent non-conductive substrate of the first preformed curtain oriented congruent to a first primary end of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip;
wherein the first wireless fidelity/short range wireless controller includes a first controller board, a first DC power input jack male plug, a first output controller pin light emitting diode female receptacle, a first wireless fidelity/short range wireless combination chip allowing for a co-existence of a wireless fidelity 2.4 GHz bandwidth and a short range wireless 2.4 GHz bandwidth, a first combination wireless fidelity/short range wireless antenna, and a second combination wireless fidelity/short range wireless antenna, the first wireless fidelity/short range wireless controller;
wherein the first wireless fidelity/short range wireless combination chip includes a first wireless fidelity module chip, a first processor chip, a first wireless fidelity chip/short range wireless chip having a first wireless fidelity chip being in coexistence with a first short range wireless chip, the first wireless fidelity chip installed with a first secure digital input output driver (SDIO), the first short range wireless chip installed with a first wireless short range universal asynchronous receiver transmitter (UART) driver, a first short range wireless stack and profiles, supported by a first virtual input output core;
wherein the first wireless fidelity/short range wireless module chip of the first wireless fidelity/short range wireless combination chip is a first 2.4 GHz wireless fidelity/short range wireless module chip whereby the first wireless fidelity/short range wireless controller operates on a 2.4 GHz bandwidth, which supports a wireless fidelity network in coexistence with a short range wireless network coexistence, a wireless local-area network, and can integrate a radio frequency network;
wherein a first DC power output jack female connector of the first AC/DC power supply adapter is releasably operationally connected to the first DC power input jack male plug of the first wireless fidelity/short range wireless controller wherein the first DC power input jack male plug incudes a first DC power input jack male plug member through which a first DC output electric current actuated by the first AC/DC power supply adapter, being releasably operationally electrically connected to a power source, is routed between the first AC/DC power supply adapter and the first wireless fidelity/short range wireless controller;
wherein the first wireless fidelity/short range wireless controller is configured having a first main direct current voltage wire, a first ground, a first one or more direct current input wirings, and a first series of one or more light emitting diode output color wirings wired to the first wireless fidelity/short range wireless module chip of the first wireless fidelity/short range wireless combination chip of the first wireless fidelity/short range wireless fidelity/short range wireless controller, wherein each of the first series of the one or more light emitting diode output color wirings includes a first predetermined forward voltage;
wherein the first preformed curtain includes a first thickness, a first front wall, a first rear wall, a first right side wall, a first opposing left side wall, a first top wall, and a first bottom wall, wherein the first preformed curtain is framed by a first top edge horizontally oriented, a first opposing bottom edge horizontally oriented parallel to the first top edge, the first top edge having a first top edge width that is greater than a first bottom edge width of the first opposing bottom edge, a first right side straight edge vertically oriented having a right side edge length extending in a first straight line from a peripheral right side edge of the first top edge to a peripheral right side edge of the first opposing bottom edge, a left side curvilinear edge having a left side curvilinear length extending in a left curvilinear line from a peripheral left side edge of the first top edge to a peripheral left side edge of the first opposing bottom edge;
wherein the first primary end of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a first wire lead wherein the first wire lead includes a first main direct current input voltage wire, a first series of one or more light emitting diode input color wire leads operationally electrically connected to a first bendable printed circuit board of the first preformed bendable wireless fidelity/short range wireless light emitting diode strip of the first preformed curtain, and wherein a first terminal end of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a first back end of the first wire lead, wherein the first terminal end of the first preformed bendable wireless fidelity/short range wireless light emitting diode strip is oriented congruent with a first output light emitting diode female receptacle of the first preformed curtain, wherein the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip being arranged such that the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip forms a first number of symmetrically aligned rows spaced laterally from the first right side wall to the first opposing left side wall of the first preformed curtain spanning a first full length of the first interior spatial area of the first transparent non-conductive substrate of the first preformed curtain;
wherein a first plurality of curved end regions seamlessly and fluidly unify each of the first number of symmetrically aligned rows allowing for a continuous movement of a first forward flow of the first DC output electric current to each of the first plurality of wireless fidelity/short range light emitting diodes in each of the first number of symmetrically aligned rows of the first wireless fidelity/short range wireless light emitting diode strip by way of the first electrically conductive copper circuitry of the first bendable printed circuit board of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip;
wherein the first top edge, the right side straight edge, and the first opposing bottom edge, of the first preformed curtain are each formed having a first core layer wherein each first core layer includes a first magnetized strip, wherein the first top edge includes a first magnetized strip polarity-A providing a first magnetized polarity-A top edge, the right side straight edge includes a first straight edge magnetized strip polarity-A providing a magnetized polarity-A right side straight edge, and the first opposing bottom edge includes a first magnetized strip polarity-B providing a first magnetized polarity-B opposing bottom edge whereby by way of one or more cut strips of the magnetic polarity-A tape and one or more cut strips of the magnetic polarity-B tape, respectively, the first preformed curtain can be releasably magnetically mounted onto the right side portion of the common window frame;
wherein the first right side wall of the first preformed curtain includes a first right aperture and a second right aperture;
wherein the first right aperture being round shaped and recessed therethrough the first right side wall of the first preformed curtain provides access to the first DC power input jack male plug of the first wireless fidelity/short range wireless controller;
wherein the second right aperture is rectangular in shape being vertically oriented and recessed therethrough a top margin of the first right side wall of the first preformed curtain wherein a first output pin light emitting diode female receptacle is installed therein, wherein the first output pin light emitting diode female receptacle is configured with a first array of five portals, wherein each of the first array of the five portals is fixed with electrically conductive copper contacts being operationally electrically wired to the first back end of the first wire lead of the first bendable circuit board of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip whereby the second preformed curtain of the second curtain lights assembly or a first accessory curtain lights extension panel of one or more accessory curtain lights extension panels can be releasably operationally electrically connected thereto;
wherein each of the first main direct current voltage wire and the first series of the one or more light emitting diode output color wirings of the first wireless fidelity/short range wireless controller is routed therethrough each of a corresponding portal of the first array of the five portals of the first output controller pin light emitting diode female receptacle of the first wireless fidelity/short range wireless controller such that each of the first main direct current voltage wire and the first series of the one or more light emitting diode output color wirings is irreversibly operationally electrically connected to the first main direct current input voltage wire and each of the first series of one or more light emitting diode input color wire leads, respectively, of the first bendable printed circuit board of the first preformed wireless fidelity/short range wireless light emitting diode light strip, whereby a first forward flow of the first DC output electric current moves therethrough to the first main direct current input voltage wire, and the first predetermined forward voltage of each of the first series of the one or more light emitting diode output color wirings moves therethrough to each of the first series of the one or more light emitting diode input color wire leads to provide the first predetermined forward voltage to each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first wireless fidelity/short range wireless light emitting diode light strip, whereby each of the first plurality of wireless fidelity/short range wireless light emitting diodes can be illuminated in a color corresponding to its received predetermined forward voltage, and thereby, generating a first visual image of a first illuminated preformed curtain draping a right side of the portion of the common window frame whereon the first preformed curtain is mounted;
wherein first quick reference code is fixed on a first opaque non-conductive sheet molded to the first rear wall of the first preformed curtain wherein the first quick reference code is protected and waterproofed by a first transparent non-conductive film molded to the first opaque non-conductive sheet;
wherein the first quick reference code includes a first pattern of at least three colored squares arranged in a first square grid on a first white background, wherein the first pattern of the at least three squares are stored with data of a manufacturer's defined settings including a smart device application for instructions to use the curtain lights kit and the curtain lights device, wherein the first quick reference code being scanned by a camera configured in a user's smart device reveals a data link to the manufacturer-defined settings including the smart device application which is a user facing software application run on the user's smart device to enable connection and communication of the smart device with a 2.4 GHz bandwidth of the user's personal area network in operation with the first wireless fidelity/short range wireless controller of the first curtain lights assembly and a second wireless fidelity/short range wireless controller of the second curtain lights assembly wherein the first wireless fidelity wireless/short range wireless controller is operationally electrically connected to the second wireless fidelity/short range wireless controller;
wherein the second curtain lights assembly, comprising:
a second preformed curtain formed from a second transparent non-conductive substrate including a second interior spatial area, wherein the second transparent non-conductive substrate is of a type identical to the first transparent non-conductive substrate of the first preformed curtain;
a second wireless fidelity/short range wireless controller embedded within the second interior spatial area of the second transparent non-conductive substrate of the second preformed curtain;
a second preformed bendable wireless fidelity/short range wireless light emitting diode light strip including a second plurality of wireless fidelity/short range wireless light emitting diodes, a second bendable printed circuit board including a second electrically conductive copper circuitry, a second plurality of copper pads, and a second plurality of resistors, wherein the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip is embedded within second interior spatial area of the second transparent non-conductive substrate of the second preformed curtain;
the second AC/DC power supply adapter;
a second quick reference code;
wherein the second wireless fidelity/short range wireless controller is embedded within the second transparent conductive substrate of the second preformed curtain positioned proximate to a second primary end of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip;
wherein the second wireless fidelity/short range wireless controller includes a second controller board, a second DC power input jack male plug, a second output controller pin light emitting diode female receptacle, a second wireless fidelity/short range wireless combination chip allowing for a co-existence of the wireless fidelity 2.4 GHz bandwidth and the short range wireless 2.4 GHz bandwidth, a second controller first combination wireless fidelity/short range wireless antenna, and a second controller second combination wireless fidelity/short range wireless antenna;
wherein the second wireless fidelity/short range wireless combination chip includes a second wireless fidelity module chip, a second processor chip, a second wireless fidelity chip/short range wireless chip having a second wireless fidelity chip being in coexistence with a second short range wireless chip, the second wireless fidelity chip installed with a second secure digital input output driver (SDIO), the second short range wireless chip installed with a second wireless short range universal asynchronous receiver transmitter (UART) driver, a second short range wireless stack and profiles, supported by a second virtual input output core;
wherein the second wireless fidelity/short range wireless module chip of the second wireless fidelity/short range wireless combination chip is a second 2.4 GHz wireless fidelity/short range wireless module chip whereby the second wireless fidelity/short range wireless controller operates on the 2.4 GHz bandwidth, which supports the wireless fidelity network and the short range wireless network coexistence, the wireless local area network, and can integrate the radio frequency network;
wherein a second DC power output jack female connector of the second AC/DC power supply adapter is releasably operationally connected to the second DC power input jack male plug of the second wireless fidelity/short range wireless controller wherein the second DC power input jack male plug incudes a second DC power input jack male plug member through which a second DC output electric current actuated by the second AC/DC power supply adapter, being releasably operationally electrically connected to the power source, is routed between the second AC/DC power supply adapter and the second wireless fidelity/short range wireless controller;
wherein the second wireless/short range wireless controller is configured having a second direct current voltage wiring, a second ground, a second one or more direct current input wirings, and a second series of one or more light emitting diode output color wirings wired to the second wireless fidelity/short range wireless module chip of the second wireless fidelity/short range wireless combination chip of the second wireless fidelity/short range wireless controller, wherein each of the second series of the one or more light emitting diode output color wirings include a second predetermined forward voltage;
wherein the second preformed curtain includes a second thickness, a second front wall, a second rear wall, a second right side wall, a second opposing left side wall, a second top wall, and a second bottom wall, wherein the second preformed curtain is framed by a second top edge horizontally oriented, a second opposing bottom edge horizontally oriented parallel to the second top edge, the second top edge having a second top edge width that is greater than a second bottom edge width of the second opposing bottom edge, a left side straight edge vertically oriented having a left side edge length extending in a second straight line from a peripheral left side edge of the second top edge to a peripheral left side edge of the second opposing bottom edge, a right side curvilinear edge having a right side curvilinear length extending in a right curvilinear line from a peripheral right side edge of the second top edge to a peripheral right side edge of the opposing bottom edge;
wherein the second primary end of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a second wire lead wherein the second wire lead includes a second main direct current input voltage wire, a second series of one or more light emitting diode input color wire leads operationally electrically connected to a second bendable printed circuit board of the second preformed bendable wireless fidelity/short range wireless light emitting diode strip of the second preformed curtain, and wherein a second terminal end of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a second back end of the second wire lead, wherein the second terminal end of the second preformed bendable wireless fidelity/short range wireless light emitting diode strip is oriented congruent with a second output light emitting diode female receptacle of the second preformed curtain, wherein the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip being arranged such that the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip forms a second number of symmetrically aligned rows spaced laterally from the second right side wall to the second opposing left side wall side of the second preformed curtain spanning a second full length of the second interior spatial area of the second transparent non-conductive substrate of the second preformed curtain;
wherein a second plurality of curved end regions seamlessly and fluidly unify each of the second number of symmetrically aligned rows allowing for a continuous movement of a second forward flow of the second DC output electric current to each of the second plurality of wireless fidelity/short range light emitting diodes in each of the second number of symmetrically aligned rows of the second wireless fidelity/short range wireless light emitting diode strip by way of the second electrically conductive copper circuitry of the second bendable printed circuit board of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip;
wherein the second top edge, the left side straight edge, and the second opposing bottom edge, of the second preformed curtain are each formed having a second core layer wherein each second core layer includes a second magnetized strip, wherein the second top edge includes a second magnetized strip polarity-A providing a second magnetized polarity-A top edge, the left side straight edge includes a second straight edge magnetized strip polarity-A providing a magnetized polarity-A left side straight edge, and the second opposing bottom edge includes a second magnetized strip polarity-B providing a second magnetized polarity-B opposing bottom edge whereby by way of one or more cut strips of the magnetic polarity-A tape and one or more cut strips of the magnetic polarity-B tape, respectively, the second preformed curtain can be releasably magnetically mounted onto a left side portion of the common window frame;
wherein the second opposing left side wall of the second preformed curtain includes a first left aperture and a second left aperture;
wherein the first left aperture being round shaped and recessed therethrough the second opposing left side wall of the second preformed curtain provides access to the second DC power input jack male plug of the second wireless fidelity/short range wireless controller;
wherein the second left aperture is rectangular in shape being vertically oriented and recessed therethrough a top margin of the second opposing left side wall of the second preformed curtain wherein a second output pin light emitting diode female receptacle is installed therein, wherein the second output pin light emitting diode female receptacle is configured with a second array of five portals wherein each of the second array of five portals is fixed with electrically conductive copper contacts being operationally electrically wired to the second back end of the second wire lead of the second bendable printed circuit board of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip whereby the first preformed curtain of the first curtain lights assembly or a second accessory curtain lights extension panel of one or more accessory curtain lights extension panels to be releasably operationally electrically connected thereto;
wherein each the second main direct current voltage wire of the second series of the one or more light emitting diode output color wirings of the second wireless fidelity/short range wireless controller is routed therethrough each of a corresponding portal of the second array of five portals of the second output controller pin light emitting diode female receptacle of the second wireless fidelity/short range wireless controller such that each of the second main direct current voltage wire and the second series of the one or more light emitting diode output color wirings is irreversibly operationally electrically connected to the second input direct current voltage wire and each of the second series of the one or more light emitting diode input color wire leads of the second wire lead, respectively, of the second bendable circuit board of the second preformed bendable wireless fidelity/short range wireless light emitting diode strip whereby a second forward flow of the DC output electric current move therethrough to the second main direct current input voltage wire, and the first predetermined forward voltage of each of the second series of the one or more light emitting diode output color wiring moves therethrough to each of the second series of the one or more light emitting diode input color wire leads to provide the second predetermined forward voltage to each of the second plurality of wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode strip, whereby each of the second plurality of wireless fidelity/short range wireless light emitting diodes of the second wireless fidelity/short range wireless light emitting diode light strip can illuminate in a color corresponding to its forward voltage, and, thereby, generating a second visual image of a second illuminated preformed curtain draping a left side portion of the common window frame whereon the second preformed curtain is mounted;
wherein the second quick reference code is fixed on a second opaque non-conductive sheet molded to the second rear wall of the second preformed curtain wherein the second quick reference code is protected and waterproofed by a second transparent non-conductive film molded to the second opaque non-conductive sheet; and
wherein the second quick reference code includes a second pattern of at least three colored squares arranged in a second square grid on a first white background, wherein the second pattern of the at least three squares is identical to the first pattern of the at least three colored squares of the first quick reference code, wherein the second pattern of the at least three colored squares is stored with the data of the manufacturer's defined settings including the smart device application for the instructions to use the curtain lights kit and the curtain lights device, wherein the second quick reference code being scanned by the camera configured in the user's smart device reveals the data link to the manufacturer-defined settings including the smart device application which is the user facing software application run on the user's smart device to enable connection and communication of the smart device with a 2.4 GHz bandwidth of the user's personal area network in operation with the second wireless fidelity/short range wireless controller of the second curtain lights assembly and a second wireless fidelity/short range wireless controller of the second curtain lights assembly wherein the first wireless fidelity wireless/short range wireless controller is operationally electrically connected to the second wireless fidelity/short range wireless controller.
2. The curtain lights kit, according to claim 1 , wherein the first wireless fidelity/short range wireless combination chip, further, operates with a 2.4 GHz Zigbee band network.
3. The curtain light kit, according to claim 1 , wherein each of the first combination wireless fidelity/short range wireless antenna and the second combination wireless fidelity/short range wireless antenna combination is a dual band omnidirectional wireless fidelity/short range wireless antenna having a 2.4 GHz bandwidth and a 5-5.8 GHz bandwidth, simultaneously, such that each of the first combination wireless fidelity/short range wireless antenna and the second combination wireless fidelity/short range wireless antenna can radiate power equally in all directions in a uniform plane.
4. The curtain lights kit, according to claim 1 , wherein the first quick reference code and the second quick reference code are each customized to include a first image and a second image centered in the first white background of the first square grid and centered in the second white background of the second white square grid, respectively, wherein the first image is a wireless fidelity symbol presented in a first color and the second image is a short range wireless symbol presented in a second color that is different color from the first color.
5. The curtain lights kit, according to claim 1 , further comprising:
a first auxiliary wireless fidelity/short range wireless controller compounded with the first wireless fidelity/short range wireless controller; and
a second auxiliary wireless fidelity/short range wireless controller compounded with the second wireless fidelity/short range wireless controller.
6. The curtain lights kit, according to claim 1 , wherein the predetermined forward voltage can include a forward voltage in the range of 1.9 forward voltage-4.4 forward voltage.
7. The curtain lights kit, according to claim 1 , wherein the first wireless fidelity/short range wireless controller and the second wireless fidelity/short range wireless controller each supports an open source operating system software, an android phone operating system, and internetwork operating system.
8. The curtain lights kit, according to claim 1 , wherein the AC/DC power supply adapter is operationally electrically connected to a rechargeable power station configured with at least 12V DC output current.
9. The curtain lights kit, according to claim 1 , wherein:
the first AC/DC power supply adapter can be a first internal AC/DC power supply adapter embedded within the first interior spatial area of the first transparent non-conductive substrate of the first preformed curtain; and
the second AC/DC power supply adapter can be a second internal AC/DC power supply adapter embedded within the second interior spatial area of the second transparent non-conductive substrate of the second preformed curtain.
10. The curtain lights kit, according to claim 1 , wherein the smart device can be selected from the group of smart devices, comprising internetwork operating system phones, operating system smart phones, android phones, smartphones, smart mobile phones, android mobile phones, smart tablets, smart phablets, smartwatches, smart glasses, computers, laptops, smart internet operating systems, and intelligent home systems.
11. The curtain lights kit, according to claim 1 , wherein each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip and each of the second plurality of wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a wireless fidelity/short range wireless microchip capable of communication with the 2.4 GHz bandwidth.
12. The curtain lights kit, according to claim 1 , wherein:
the one or more cut strips of the magnetic polarity-A tape and one or more cut strips of the magnetic polarity-B tape each includes an adhesive side and a smooth side, wherein each of the adhesive side includes an adhesive and each of the smooth side of the one or more cut strips of magnetic polarity-B tape includes a groove lined down a center region of each of the one or more cut strips of the magnetic polarity-B tape to distinguish the one or more cut strips of the magnetic polarity-B tape from the one or more cut strips of the magnetic polarity-A tape;
a first cut strip of the magnetic polarity-B tape of the one or more cut strips of the magnetic polarity-B tape by way of its adhesive side can be releasably adhered thereon a right side portion of a head region of the common window fame, and a first cut strip of magnetic polarity-A tape of the one or more cut strips of the magnetic polarity-A tape by way of its adhesive side can be releasably adhered thereon a right side portion of a stool region of the common window frame such that the first magnetized polarity-A top edge of the first preformed curtain is releasably magnetically attached to the smooth side of the first cut strip of the magnetic polarity-B tape and the first magnetized polarity-B opposing bottom edge of the first preformed curtain is releasably magnetically attached to the smooth side of the first cut strip of the magnetic polarity-A tape whereby the first preformed curtain is releasably magnetically mounted to the right side portion of the common window frame; and
a second cut strip of the magnetic polarity-B tape of the one or more cut strips of the magnetic polarity-B tape by way of its adhesive side can be releasably adhered thereon a left side portion of the head region of the common window frame, and a second cut strip of magnetic polarity-A tape of the one or more cut strips of the magnetic polarity-A tape by way of its adhesive side can be releasably adhered thereon a left side portion of the stool region of the common window frame such that the second magnetized polarity-A top edge of the second preformed curtain is releasably magnetically attached to the smooth side of the second cut strip of the magnetic polarity-B tape, and the second magnetized polarity-B opposing bottom edge of the second preformed curtain is releasably magnetically attached to the smooth side of the second cut strip of the magnetic polarity-B tape whereby the second preformed curtain is releasably magnetically mounted to the left side of the common window frame such that an illuminated fully draped common window frame is provided wherein the first curtain lights assembly and/or the second curtain lights assembly is operationally electrically connected to a power source.
13. The curtain lights kit, according to claim 1 , further comprising:
a first auxiliary output controller pin light emitting diode female receptacle disposed on a first bottom edge of the first controller board of the first wireless fidelity/short range controller wherein the first auxiliary output controller pin light emitting diode female receptacle is operationally electrically wired to the first wireless fidelity/short range wireless module chip of the first wireless fidelity/short range wireless controller by way of a first auxiliary direct current voltage wire, a first auxiliary one or more direct current input wirings, and a first auxiliary series of one or more light emitting diode output color wirings; and
a second auxiliary output controller pin light emitting diode female receptacle disposed on a second bottom edge of the second controller board of the second wireless fidelity/short range controller wherein the second auxiliary output controller pin light emitting diode female receptacle is operationally electrically wired to the second wireless fidelity/short range wireless module chip of the second wireless fidelity/short range wireless controller by way of a second auxiliary direct current voltage wire, a second auxiliary one or more direct current input wirings, and a second auxiliary series of one or more light emitting diode output color wirings.
14. The curtain lights kit, according to claim 1 , wherein each of the accessory curtain lights extension panels of the one or more accessory curtain lights extension panels further comprising:
a rectangular shape framed by a top wall, a bottom wall, a first side wall and a second side wall;
an accessory preformed bendable wireless fidelity/short range wireless light emitting diode light strip having an accessory plurality of wireless fidelity/short range wireless light emitting diodes embedded therein an accessory transparent non-conductive substrate wherein the accessory transparent non-conductive substrate is of the type of the first transparent non-conductive substrate of the first preformed curtain and the second transparent non-conductive substrate of the second preformed curtain;
wherein the accessory preformed bendable wireless fidelity/short range wireless light emitting diode light strip begins at a primary lead end and terminating at a terminal lead end, wherein the accessory preformed bendable wireless fidelity/short range wireless light emitting diode strip is arranged in a multitude of continuous symmetrical rows extending from a top corner to a bottom corner within an accessory interior spatial area of the accessory curtain lights extension panel;
an input pin light emitting diode female receptacle which is operationally electronically connected to an accessory primary end of an accessory wire lead operationally electrically connected to an accessory bendable circuit board, the accessory wire lead including an accessory main direct current voltage wire and two or more accessory color wire leads, wherein the input pin light emitting diode female receptacle can be accessed through a first cut away opening recessed within a region of the first side wall of the curtain lights extension panel;
an accessory output pin light emitting diode female receptacle which is operationally electronically connected to an accessory back end of the accessory wire lead wherein the accessory output pin light emitting diode female receptacle can be accessed through a second cut away opening recessed within a region of the second side wall of the curtain lights extension panel;
whereby a first accessory curtain lights extension panel can be releasably operationally electrically connected to the first curtain lights assembly by way of a first mateable pin light emitting diode male connector of the one or more mateable pin light emitting diode male connectors, wherein a first male connector end of the first mateable pin light emitting male connector is releasably operationally electrically connected to the first output pin light emitting diode female receptacle of the first preformed curtain and a second male connector end of the first mateable pin light emitting diode male connector is releasably operationally electrically connected to the accessory input pin light emitting diode female receptacle of the first accessory curtain lights extension panel whereby movement of the first DC output electric current flowing from the first wireless fidelity/short range wireless controller is directed to each of a first accessory plurality of wireless fidelity/short range wireless light emitting diodes of the first accessory preformed bendable wireless fidelity/short range wireless light emitting diode light strip of the first accessory curtain lights extension panel; and
whereby a second accessory curtain lights extension panel can be releasably operationally electrically connected to a second terminal end of the second wireless fidelity/short range wireless light emitting diode light strip of the second preformed curtain by way of a second mateable pin light emitting diode male connector of the one or more mateable pin light emitting diode male connectors, wherein a first male connector end of the second mateable pin light emitting male connector is releasably operationally electrically connected to the second auxiliary output controller light emitting diode female receptor of the second wireless fidelity/short range wireless controller and a second male connector end of the second mateable pin light emitting diode male connector is releasably operationally electrically connected to a second input light emitting diode female receptacle recessed in an upper region of a second side wall of the of the second accessory curtain lights extension panel whereby movement of the second DC output electric current flowing from the second wireless fidelity/short range wireless controller is directed to each of a second accessory plurality of wireless fidelity/short range wireless light emitting diodes of the second accessory preformed bendable wireless fidelity/short range wireless light emitting diode strip of the second accessory curtain lights extension panel.
15. The curtain lights kit, according to claim 1 , wherein each of the accessory curtain lights extension panels of the one or more accessory curtain lights extension panels, further comprising:
one or more magnetized margins including a magnetized top margin of polarity-A, a magnetized bottom margin of polarity-B, a first magnetized side margin of polarity-A and a second magnetized side margin of polarity-B such that any one of the one or more one or more accessory curtain lights extension panels can be releasably magnetically attached to the first preformed curtain and/or the second preformed curtain by way of the first magnetized polarity-A top edge, the magnetized polarity-A right side straight edge, the first magnetized polarity-B opposing bottom edge of the first preformed curtain, and the second magnetized polarity-A top edge, the magnetized polarity-A left side straight edge, the second magnetized polarity-B opposing bottom edge of the second preformed curtain, or to each other of the one or more accessory lights extension panels, by way of each of the magnetized top margin of polarity-A, the magnetized bottom margin of polarity-B, the first magnetized side margin of polarity-A, and the second magnetized side margin of polarity-B of each of the accessory curtain lights extension panels of the one or more accessory curtain lights extension panels.
16. The curtain lights kit, according to claim 1 , wherein one or more of the accessory curtain lights extension panels can be releasably operationally electrically connected to each of the first auxiliary output controller pin light emitting diode female receptacle of the first wireless fidelity/short range controller and/or to the second auxiliary output controller pin light emitting diode female receptacle of the second wireless fidelity/short range controller by way of any one of the one or more pin light emitting diode female to female butterfly connectors utilizing one or more mateable pin light emitting diode male connectors wherein a first male connector end of a first mateable pin light emitting diode male connector is releasably operationally electrically connected to the first auxiliary output controller pin light emitting diode female receptacle and the second male connector end of the first mateable pin light emitting diode male connector is releasably operationally electrically connected to a first pin light emitting diode butterfly female terminal connector of a first pin light emitting diode female to female butterfly connector, a first male connector end of a second mateable pin light emitting diode male connector is releasably operationally electrically connected to a second pin light emitting diode butterfly female terminal connector of the first pin light emitting diode female to female butterfly connector and the second male connector end of the second mateable pin light emitting diode male connector is releasably operationally electrically connected to a first input light emitting diode female receptacle of a first accessory curtain lights extension panel, a first male connector end of a third mateable pin light emitting diode male connector is releasably operationally electrically connected to a third pin light emitting diode butterfly female terminal connector of the first pin light emitting diode female to female butterfly connector and the second male connector end of the third mateable pin light emitting diode male connector is releasably operationally electrically connected to a first input light emitting diode female receptacle of a second accessory curtain lights extension panel, and a first male connector end of a fourth mateable pin light emitting diode male connector is releasably operationally electrically connected to a fourth pin light emitting diode butterfly female terminal connector of the first pin light emitting diode female to female butterfly connector and the second male connector end of the fourth mateable pin light emitting diode male connector is releasably operationally electrically connected to a first input light emitting diode female receptacle of a third accessory curtain lights extension panel.
17. The curtain lights kit, according to claim 1 , wherein the roll of magnetic polarity-A tape and a roll of magnetic polarity-B tape, can comprise a metal capable of being magnetized selected from the group of metals comprising iron, nickel, and cobalt.
18. The curtain lights kit, according to claim 1 , wherein each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip and each of the second plurality of the wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a surface mounted diode type wireless fidelity/short range wireless light emitting diode.
19. The curtain lights kit, according to claim 1 , wherein each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip and each of the second plurality of the wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip includes a chip on board type diode.
20. The curtain lights kit, according to claim 1 , wherein the first preformed curtain and the second preformed curtain can be preconfigured in size, dimension or curtain shape configuration whereby the first preformed curtain and the second preformed curtain can be customized and configured to fit a variety of dimensions of a variety of common window frames.
21. The curtain lights kit, according to claim 1 , wherein each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip and the second plurality of wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip emit the same color.
22. The curtain lights kit, according to claim 1 , wherein each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip emits a first color and each of the second plurality of wireless fidelity/short range wireless light emitting diodes of the second preformed bendable wireless fidelity/short range wireless light emitting diode light strip emit a second color different from the first color emitted from each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip.
23. The curtain lights kit, according to claim 1 , wherein:
the first preformed bendable wireless fidelity/short range wireless light emitting diode light strip and the first wireless fidelity/short range wireless controller each being embedded within the first interior spatial area of the first transparent non-conductive substrate of the first preformed curtain are waterproofed; and
the second wireless fidelity/short range wireless light emitting diode light strip and the second wireless fidelity/short range wireless controller each being embedded within the second interior spatial area of the second transparent non-conductive substrate of the second preformed curtain are waterproofed.
24. The curtain lights kit, according to claim 1 , wherein the first transparent non-conductive substrate and the second transparent substrate can be selected from the group of substrates comprising, transparent silicone, silicone, transparent silicone, polyimide, colloid, polyurethane resin, polyester, polymer film, polyimide, polyimide polymer, transparent rubber.
25. The curtain lights kit, according to claim 24 , wherein any one of the group of substrates comprises the characteristics of being water resistant, heat resistant, and bendable.
26. The curtain lights kit, according to claim 24 , wherein any one of the group of substrates comprises the characteristics of being water resistant, heat resistant, and non-bendable.
27. The curtain lights kit, according to claim 1 , wherein the first preformed curtain and the second preformed curtain is made by way of a molding technique including a combination of a plastic fabrication technique, a compression molding technique, a dye-cutting technique, a vacuum casting, coating technique.
28. The curtain lights kit, according to claim 1 , wherein the portable curtain lights storage case further comprises:
a rigid transparent non-conductive substrate rectangular in shape having a front wall, a rear wall, a first side wall and an opposing second side wall enclosing two storage bodies, a first storage body and a second storage body disposed therein the portable curtain lights storage case;
the first storage body including a first interior cavity having a first lid including a first apron, and the second storage body including a second interior cavity having a second lid including a second apron;
wherein a central portion of the front wall of the portable curtain lights storage case includes a magnetized strip extending from the first side wall to the opposing second side wall;
wherein the first lid extends from a first portion of the rear wall of the portable curtain lights storage case, the first lid configured to bend towards a first portion of the front wall of the portable curtain lights storage case in a closed position and bend towards a first portion of the rear wall of the portable curtain lights storage case in an open position;
wherein the first apron extends from a first front linear edge of the first lid and is configured to bend downward against a first area of the magnetized strip such that a first magnetized latch affixed on a front centralized portion of the first apron is releasably magnetically attached to the first area of the magnetized strip of the front wall of the portable curtain lights storage case to magnetically releasably fasten the first lid in the closed position;
wherein the first magnetized latch includes a first latch quick reference code imprinted thereon an exterior surface of the first magnetized latch, wherein the first latch quick reference code includes the data providing the link to the manufacturer's defined settings including a smart device application for instructions to use the curtain lights kit and the curtain lights device;
wherein the second apron extends from a second front linear edge of the second lid and is configured to bend downward against a second area of the magnetized strip such that a second magnetized latch affixed on a front centralized portion of the second apron is releasably magnetically attached to the second area of the magnetized strip of the front wall of the portable curtain lights storage case to magnetically releasably fasten the second lid in the closed position;
wherein the second magnetized latch includes a second latch quick reference code imprinted thereon an exterior surface of the second magnetized latch, wherein the second latch quick reference code includes the data providing the link to the manufacturer's defined settings including a smart device application for instructions to use the curtain lights kit and the curtain lights device; and
wherein each of the at least two storage containers is labelled with an icon identifying each of the first curtain lights assembly, the second curtain lights assembly, the roll of magnetic polarity-A tape, the roll of magnetic polarity-B tape, the one or more pin female to female connector cables, the one or more pin female to female butterfly connector cables, the one or more mateable pin light emitting diode male connectors, the first AC/DC power supply adapter, the second power supply adapter, the curtain lights device instruction manual to categorically store the first curtain lights assembly and the second curtain lights assembly.
29. The curtain lights kit, according to claim 1 , wherein the first opaque non-conductive sheet and the second opaque non-conductive sheet is print receptive.
30. The curtain lights kit, according to claim 1 , wherein the first opaque non-conductive sheet and the second opaque non-conductive sheet comprises a high density polyethylene.
31. The curtain lights kit, according to claim 1 , wherein the first opaque non-conductive sheet and the second opaque non-conductive sheet comprises a butyl rubber.
32. The curtain lights kit, according to claim 1 , wherein:
the first latch quick reference code is imprinted on a polyethylene film comprising a releasable adhesive such that the first latch quick reference code can be releaseably attached to an exterior surface of the first magnetized latch of the portable curtain lights storage case; and
the second latch quick reference code is imprinted thereon a polyethylene film comprising the releasable adhesive such that the second latch quick reference code can be releasably attached an exterior surface of the second magnetized latch quick reference code can be releaseably attached an exterior surface of the second magnetized latch of the portable curtain lights storage case.
33. A curtain lights device, comprising:
a preformed curtain lights panel formed from a transparent silicone substrate being molded in a generally R-shape wherein the preformed curtain lights panel includes a front curtain wall, a rear curtain wall, a linearly straight side curtain wall, a curvilinear side curtain wall, a top curtain wall, and a bottom curtain wall, wherein the preformed curtain lights panel includes a length along a median axis of the preformed curtain lights panel, a varying width across the median axis of the preformed curtain lights panel, and a thickness;
a preformed wireless fidelity/short range wireless light emitting diode plate molded in the generally R-shape of the preformed curtain lights panel, wherein the preformed wireless fidelity/short range wireless light emitting diode plate is embedded within an interior spatial area of the transparent silicone substrate of the preformed curtain lights panel;
a wireless fidelity/short range wireless controller embedded within the transparent silicone substrate of the preformed curtain lights panel congruent with the preformed wireless fidelity/short range wireless light emitting diode plate;
a docking station;
an AC/DC power supply adapter;
wherein the preformed wireless fidelity/short range wireless light emitting diode plate includes a preformed printed circuit board including an electrically conductive copper circuitry irreversibly electrically connected to a plurality of wireless fidelity/short range wireless light emitting diodes, a plurality of copper pads, a plurality of resistors, arranged in a symmetrically aligned array of rows along the length of the transparent silicone substrate of the curtain lights panel;
wherein the preformed wireless fidelity/short range wireless light emitting diode plate includes a primary end and a terminal end, wherein the primary end includes a wire lead, wherein the wire lead includes a main direct current input voltage wire, a series of one or more light emitting diode input color wire leads extending from the electrically conductive copper circuitry of the preformed printed circuit board of the preformed wireless fidelity/short range wireless light emitting diode plate;
wherein the wireless fidelity/short range wireless controller includes a controller board, a DC power input jack male plug, a controller pin light emitting diode female receptacle, a wireless fidelity/short range wireless combination chip allowing for a co-existence of a wireless fidelity 2.4 GHz bandwidth and a short range wireless 2.4 GHz bandwidth;
wherein the wireless fidelity/short range wireless combination chip includes a wireless fidelity module chip, a processor chip, a wireless fidelity chip/short range wireless chip having a wireless fidelity chip being in coexistence with a short range wireless chip, the wireless fidelity chip installed with a secure digital input output driver (SDIO), the short range wireless chip installed with a wireless short range universal asynchronous receiver transmitter (UART) driver, a short range wireless stack and profiles, supported by a virtual input output core, a first combination wireless fidelity/short range wireless antenna, and a second combination wireless fidelity/short range wireless antenna;
wherein the wireless fidelity/short range wireless module chip of the wireless fidelity/short range wireless combination chip is a first 2.4 GHz wireless fidelity/short range wireless module chip whereby the wireless fidelity/short range wireless controller operates on a 2.4 GHz bandwidth, which supports a wireless fidelity network and a short range wireless network coexistence, a wireless local-area network, and can integrate a radio frequency network;
wherein the docking station includes a front wall, a rear wall, top wall, a bottom wall, an interior facing side wall and an opposing exterior facing side wall, wherein the interior facing side wall is vertically oriented in a first direction facing towards the wireless fidelity/short range wireless controller and the opposing exterior facing side wall is vertically oriented in a second direction being exposed therethrough a vertical cutaway region longitudinally oriented on a lower portion of the linearly straight side curtain wall of the preformed curtain lights panel;
wherein the interior facing side wall of the docking station includes a first multiplicity of types of interior facing female receptacles and wherein the opposing exterior facing side wall of the docking station includes a second multiplicity of types of exterior facing female receptacles being exposed therethrough the vertical cutaway region whereby the second multiplicity of types of exterior facing female receptacles are made available to a user;
wherein the AC/DC power supply adapter includes a first side including a DC power output jack female connector and an opposing second side having a power cable connected to a male power plug connector configured to releasably operationally connect to a female socket of a power source;
wherein the DC power output jack female connector of the AC/DC power supply adapter is releasably operationally electrically connected to the DC power input jack male plug of the wireless fidelity/short range wireless controller, wherein the DC power input jack male plug can be accessed by way of the opposing exterior facing side wall of the docking station;
wherein the wireless fidelity/short range wireless controller is configured having a main direct current voltage wire, a ground, one or more direct current input wirings, and a series of one or more light emitting diode output color wirings wired to the wireless fidelity/short range wireless module chip of the wireless fidelity/short range wireless combination chip of the wireless fidelity/short range wireless fidelity/short range wireless controller, wherein each of the series of the one or more light emitting diode output color wirings includes a predetermined forward voltage; and
wherein each of the main direct current voltage wire and each of the of the one or more light emitting diode output color wirings of the wireless fidelity/short range wireless controller are routed therethrough each of a corresponding portal of five portals of the controller pin light emitting diode female receptacle of the wireless fidelity/short range wireless controller to be irreversibly operationally electrically connected to each of the main direct current input voltage wire of the wire lead and each of the one or more light emitting diode input color wire leads of the wire lead of the wireless fidelity/short range wireless light emitting diode plate, respectively, wherein the main direct current voltage wire receives a forward flow of the first DC output electric current actuated by the AC/DC power supply adapter, and each of the series of the one or more light emitting diode input color wire leads receives the predetermined forward voltage corresponding from each of the one or more light emitting diode output color wirings, whereby each of the plurality of wireless fidelity/short range wireless light emitting diodes of the preformed wireless fidelity/short range wireless light emitting diode plate of the preformed curtain lights panel is illuminated in a color corresponding to its received predetermined forward voltage, and, thereby, wherein the curtain lights panel is mounted on a side of a common window frame a visual image of an illuminated preformed curtain lights panel draping the side of the common window frame is generated.
34. The curtain lights device, according to claim 33 , wherein:
each of the first combination wireless fidelity/short range wireless antenna, and the second combination wireless fidelity/short range wireless antenna of the first wireless fidelity/short range wireless controller and each of the second controller first combination wireless fidelity/short range wireless antenna, and the second controller second combination wireless fidelity/short range wireless antenna is a dual band omnidirectional wireless fidelity/short range wireless antenna having a 2.4 GHz bandwidth and a 5-5.8 GHz bandwidth, simultaneously, such that each of the first combination wireless fidelity/short range wireless antenna and the second combination wireless fidelity/short range wireless antenna can radiate power equally in all directions in a uniform plane.
35. The curtain lights device, according to claim 33 , further comprising:
one or more AC/DC power supply adapter outlet extenders;
wherein each of the one or more AC/DC power supply adapter outlet extenders includes a protective housing having a top side and a bottom side joined by four side walls;
wherein the top side includes at least two universal serial bus female receptacles, and the bottom side includes a male pronged power plug;
wherein a first universal serial bus female receptacle of the at least two universal serial bus receptacles can receive a first mateable male terminal plug of a first universal serial bus cable of one or more universal serial bus cables of a variety of types of male to male terminal plugs and wherein a second mateable male terminal plug of the first universal serial bus cable can be releasably operationally electronically connected to a first mateable exterior facing female receptacle of a first opposing exterior side wall of a first docking station of a first preformed curtain lights panel;
wherein a second universal serial bus female receptacle of the at least two AC/DC power supply adapter outlet extenders can receive a first mateable male terminal plug of a second universal serial bus cable and a second mateable male terminal end of the second universal serial bus cable can be releasably operationally electronically connected to a second mateable exterior facing female receptacle of a second opposing exterior side wall of a second docking station of a second preformed lights curtain panel; and
wherein the first AC/DC power supply adapter outlet extender when connected to a power source provides a flow of a direct current output electric current to each of a first plurality of wireless fidelity/short range wireless light emitting diodes of a first preformed wireless fidelity/short range wireless light emitting diode plate of the first preformed lights curtain panel and to each of a second plurality of wireless fidelity/short range wireless light emitting diodes of a second preformed wireless fidelity/short range wireless light emitting diode plate of the second preformed lights curtain panel and, thereby, each of the first plurality of wireless fidelity/short range wireless light emitting diodes of the first preformed wireless fidelity/short range wireless light emitting diode plate and each of the second plurality of wireless fidelity/short range wireless light emitting diodes of the second preformed wireless fidelity/short range wireless light emitting diode plate are illuminated providing a first illuminated preformed wireless fidelity/short range wireless light emitting diode plate of the first preformed curtain lights panel and a second illuminated preformed wireless fidelity/short range wireless light emitting diode plate of the second curtain lights panel.
36. The curtain lights device, according to claim 33 , further comprising:
one or more curtain lights extension panels;
wherein each of the one or more curtain lights extension panels includes a rectangular shape having four side walls formed from the transparent silicone substrate, an auxiliary preformed wireless fidelity/short range wireless light emitting diode plate embedded therein, and one or more pin light emitting diode female receptacles recessed into any one of the four side walls of each of the one or more curtain lights extension panel,
one or more universal serial bus cables including a variety of types of male to male terminal plugs; and
wherein each of the one or more universal serial bus cables includes a first terminal male plug and a second terminal male plug and a length of cable therebetween, wherein each of the first terminal male plug is mateable with one or more of the first multiplicity of the exterior female receptacles of the opposing exterior side wall of the docking station and the second terminal male plug is mateable with one or more pin light emitting diode female receptors recessed into one or more side walls of each of one or more extension curtain lights panels whereby by way of a mateable USB cable any one of the one or more curtain lights extension panels can be operationally electrically connected to the preformed curtain lights panel.
37. The curtain lights device, according to claim 33 , wherein the preformed curtain lights panel, and the preformed wireless fidelity/short range wireless light emitting diode plate can be manufactured by way of a molding technique including a combination of a plastic fabrication technique, a compression molding technique, a dye-cutting technique, a vacuum casting, coating technique.
38. The curtain lights device, according to claim 33 , wherein the preformed curtain lights panel, and the preformed wireless fidelity/short range wireless light emitting diode plate can be bendable.
39. The curtain lights device, according to claim 33 , wherein the preformed curtain lights panel, and the preformed wireless fidelity/short range wireless light emitting diode plate can be non-bendable.Cited by (0)
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